#
# x86 register and target modifier recognition
#
#  Copyright (C) 2002-2007  Peter Johnson
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
#    notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
#    notice, this list of conditions and the following disclaimer in the
#    documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND OTHER CONTRIBUTORS ``AS IS''
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR OTHER CONTRIBUTORS BE
# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
%{
#include <util.h>
RCSID("$Id: x86regtmod.gperf 2061 2008-04-12 01:33:54Z peter $");

#include <ctype.h>
#include <libyasm.h>
#include <libyasm/phash.h>

#include "modules/arch/x86/x86arch.h"

enum regtmod_type {
    REG = 1,
    REGGROUP,
    SEGREG,
    TARGETMOD
};
%}
%ignore-case
%language=ANSI-C
%compare-strncmp
%readonly-tables
%enum
%struct-type
%define hash-function-name regtmod_hash
%define lookup-function-name regtmod_find
struct regtmod_parse_data {
    const char *name;
    unsigned int type:8;                /* regtmod_type */

    /* REG: register size
     * SEGREG: prefix encoding
     * Others: 0
     */
    unsigned int size_prefix:8;

    /* REG: register index
     * REGGROUP: register group type
     * SEGREG: register encoding
     * TARGETMOD: target modifier
     */
    unsigned int data:8;

    /* REG: required bits setting
     * SEGREG: BITS in which the segment is ignored
     * Others: 0
     */
    unsigned int bits:8;
};
%%
#
# control, debug, and test registers
#
cr0,	REG,	X86_CRREG,	0,	0
cr2,	REG,	X86_CRREG,	2,	0
cr3,	REG,	X86_CRREG,	3,	0
cr4,	REG,	X86_CRREG,	4,	0
cr8,	REG,	X86_CRREG,	8,	64
#
dr0,	REG,	X86_DRREG,	0,	0
dr1,	REG,	X86_DRREG,	1,	0
dr2,	REG,	X86_DRREG,	2,	0
dr3,	REG,	X86_DRREG,	3,	0
dr4,	REG,	X86_DRREG,	4,	0
dr5,	REG,	X86_DRREG,	5,	0
dr6,	REG,	X86_DRREG,	6,	0
dr7,	REG,	X86_DRREG,	7,	0
#
tr0,	REG,	X86_TRREG,	0,	0
tr1,	REG,	X86_TRREG,	1,	0
tr2,	REG,	X86_TRREG,	2,	0
tr3,	REG,	X86_TRREG,	3,	0
tr4,	REG,	X86_TRREG,	4,	0
tr5,	REG,	X86_TRREG,	5,	0
tr6,	REG,	X86_TRREG,	6,	0
tr7,	REG,	X86_TRREG,	7,	0
#
# floating point, MMX, and SSE/SSE2 registers
#
st0,	REG,	X86_FPUREG,	0,	0
st1,	REG,	X86_FPUREG,	1,	0
st2,	REG,	X86_FPUREG,	2,	0
st3,	REG,	X86_FPUREG,	3,	0
st4,	REG,	X86_FPUREG,	4,	0
st5,	REG,	X86_FPUREG,	5,	0
st6,	REG,	X86_FPUREG,	6,	0
st7,	REG,	X86_FPUREG,	7,	0
#
mm0,	REG,	X86_MMXREG,	0,	0
mm1,	REG,	X86_MMXREG,	1,	0
mm2,	REG,	X86_MMXREG,	2,	0
mm3,	REG,	X86_MMXREG,	3,	0
mm4,	REG,	X86_MMXREG,	4,	0
mm5,	REG,	X86_MMXREG,	5,	0
mm6,	REG,	X86_MMXREG,	6,	0
mm7,	REG,	X86_MMXREG,	7,	0
#
xmm0,	REG,	X86_XMMREG,	0,	0
xmm1,	REG,	X86_XMMREG,	1,	0
xmm2,	REG,	X86_XMMREG,	2,	0
xmm3,	REG,	X86_XMMREG,	3,	0
xmm4,	REG,	X86_XMMREG,	4,	0
xmm5,	REG,	X86_XMMREG,	5,	0
xmm6,	REG,	X86_XMMREG,	6,	0
xmm7,	REG,	X86_XMMREG,	7,	0
xmm8,	REG,	X86_XMMREG,	8,	64
xmm9,	REG,	X86_XMMREG,	9,	64
xmm10,	REG,	X86_XMMREG,	10,	64
xmm11,	REG,	X86_XMMREG,	11,	64
xmm12,	REG,	X86_XMMREG,	12,	64
xmm13,	REG,	X86_XMMREG,	13,	64
xmm14,	REG,	X86_XMMREG,	14,	64
xmm15,	REG,	X86_XMMREG,	15,	64
# AVX registers
ymm0,	REG,	X86_YMMREG,	0,	0
ymm1,	REG,	X86_YMMREG,	1,	0
ymm2,	REG,	X86_YMMREG,	2,	0
ymm3,	REG,	X86_YMMREG,	3,	0
ymm4,	REG,	X86_YMMREG,	4,	0
ymm5,	REG,	X86_YMMREG,	5,	0
ymm6,	REG,	X86_YMMREG,	6,	0
ymm7,	REG,	X86_YMMREG,	7,	0
ymm8,	REG,	X86_YMMREG,	8,	64
ymm9,	REG,	X86_YMMREG,	9,	64
ymm10,	REG,	X86_YMMREG,	10,	64
ymm11,	REG,	X86_YMMREG,	11,	64
ymm12,	REG,	X86_YMMREG,	12,	64
ymm13,	REG,	X86_YMMREG,	13,	64
ymm14,	REG,	X86_YMMREG,	14,	64
ymm15,	REG,	X86_YMMREG,	15,	64
#
# integer registers
#
rax,	REG,	X86_REG64,	0,	64
rcx,	REG,	X86_REG64,	1,	64
rdx,	REG,	X86_REG64,	2,	64
rbx,	REG,	X86_REG64,	3,	64
rsp,	REG,	X86_REG64,	4,	64
rbp,	REG,	X86_REG64,	5,	64
rsi,	REG,	X86_REG64,	6,	64
rdi,	REG,	X86_REG64,	7,	64
r8,	REG,	X86_REG64,	8,	64
r9,	REG,	X86_REG64,	9,	64
r10,	REG,	X86_REG64,	10,	64
r11,	REG,	X86_REG64,	11,	64
r12,	REG,	X86_REG64,	12,	64
r13,	REG,	X86_REG64,	13,	64
r14,	REG,	X86_REG64,	14,	64
r15,	REG,	X86_REG64,	15,	64
#
eax,	REG,	X86_REG32,	0,	0
ecx,	REG,	X86_REG32,	1,	0
edx,	REG,	X86_REG32,	2,	0
ebx,	REG,	X86_REG32,	3,	0
esp,	REG,	X86_REG32,	4,	0
ebp,	REG,	X86_REG32,	5,	0
esi,	REG,	X86_REG32,	6,	0
edi,	REG,	X86_REG32,	7,	0
r8d,	REG,	X86_REG32,	8,	64
r9d,	REG,	X86_REG32,	9,	64
r10d,	REG,	X86_REG32,	10,	64
r11d,	REG,	X86_REG32,	11,	64
r12d,	REG,	X86_REG32,	12,	64
r13d,	REG,	X86_REG32,	13,	64
r14d,	REG,	X86_REG32,	14,	64
r15d,	REG,	X86_REG32,	15,	64
#
ax,	REG,	X86_REG16,	0,	0
cx,	REG,	X86_REG16,	1,	0
dx,	REG,	X86_REG16,	2,	0
bx,	REG,	X86_REG16,	3,	0
sp,	REG,	X86_REG16,	4,	0
bp,	REG,	X86_REG16,	5,	0
si,	REG,	X86_REG16,	6,	0
di,	REG,	X86_REG16,	7,	0
r8w,	REG,	X86_REG16,	8,	64
r9w,	REG,	X86_REG16,	9,	64
r10w,	REG,	X86_REG16,	10,	64
r11w,	REG,	X86_REG16,	11,	64
r12w,	REG,	X86_REG16,	12,	64
r13w,	REG,	X86_REG16,	13,	64
r14w,	REG,	X86_REG16,	14,	64
r15w,	REG,	X86_REG16,	15,	64
#
al,	REG,	X86_REG8,	0,	0
cl,	REG,	X86_REG8,	1,	0
dl,	REG,	X86_REG8,	2,	0
bl,	REG,	X86_REG8,	3,	0
ah,	REG,	X86_REG8,	4,	0
ch,	REG,	X86_REG8,	5,	0
dh,	REG,	X86_REG8,	6,	0
bh,	REG,	X86_REG8,	7,	0
r8b,	REG,	X86_REG8,	8,	64
r9b,	REG,	X86_REG8,	9,	64
r10b,	REG,	X86_REG8,	10,	64
r11b,	REG,	X86_REG8,	11,	64
r12b,	REG,	X86_REG8,	12,	64
r13b,	REG,	X86_REG8,	13,	64
r14b,	REG,	X86_REG8,	14,	64
r15b,	REG,	X86_REG8,	15,	64
#
spl,	REG,	X86_REG8X,	4,	64
bpl,	REG,	X86_REG8X,	5,	64
sil,	REG,	X86_REG8X,	6,	64
dil,	REG,	X86_REG8X,	7,	64
#
rip,	REG,	X86_RIP,	0,	64
#
# floating point, MMX, and SSE/SSE2 registers
#
st,	REGGROUP,	0,	X86_FPUREG,	0
mm,	REGGROUP,	0,	X86_MMXREG,	0
xmm,	REGGROUP,	0,	X86_XMMREG,	0
ymm,	REGGROUP,	0,	X86_YMMREG,	0
#
# segment registers
#
es,	SEGREG,	0x26,	0x00,	64
cs,	SEGREG,	0x2e,	0x01,	0
ss,	SEGREG,	0x36,	0x02,	64
ds,	SEGREG,	0x3e,	0x03,	64
fs,	SEGREG,	0x64,	0x04,	0
gs,	SEGREG,	0x65,	0x05,	0
#
# target modifiers
#
near,	TARGETMOD,	0,	X86_NEAR,	0
short,	TARGETMOD,	0,	X86_SHORT,	0
far,	TARGETMOD,	0,	X86_FAR,	0
to,	TARGETMOD,	0,	X86_TO,		0
%%

yasm_arch_regtmod
yasm_x86__parse_check_regtmod(yasm_arch *arch, const char *id, size_t id_len,
                              uintptr_t *data)
{
    yasm_arch_x86 *arch_x86 = (yasm_arch_x86 *)arch;
    /*@null@*/ const struct regtmod_parse_data *pdata;
    size_t i;
    static char lcaseid[8];
    unsigned int bits;
    yasm_arch_regtmod type;

    if (id_len > 7)
        return YASM_ARCH_NOTREGTMOD;
    for (i=0; i<id_len; i++)
        lcaseid[i] = tolower(id[i]);
    lcaseid[id_len] = '\0';

    pdata = regtmod_find(lcaseid, id_len);
    if (!pdata)
        return YASM_ARCH_NOTREGTMOD;

    type = (yasm_arch_regtmod)pdata->type;
    bits = pdata->bits;

    if (type == YASM_ARCH_REG && bits != 0 && arch_x86->mode_bits != bits) {
        yasm_warn_set(YASM_WARN_GENERAL,
                      N_("`%s' is a register in %u-bit mode"), id, bits);
        return YASM_ARCH_NOTREGTMOD;
    }

    if (type == YASM_ARCH_SEGREG && bits != 0 && arch_x86->mode_bits == bits) {
        yasm_warn_set(YASM_WARN_GENERAL,
                      N_("`%s' segment register ignored in %u-bit mode"), id,
                      bits);
    }

    if (type == YASM_ARCH_SEGREG)
        *data = (pdata->size_prefix<<8) | pdata->data;
    else
        *data = pdata->size_prefix | pdata->data;
    return type;
}
